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具有生物可降解牙齿结合部分的向齿型胶束的发展。

The development of dentotropic micelles with biodegradable tooth-binding moieties.

机构信息

Department of Pharmaceutical Sciences, College of Pharmacy, University of Nebraska Medical Center, Omaha, Nebraska, 68198-6025, USA.

出版信息

Pharm Res. 2013 Nov;30(11):2808-17. doi: 10.1007/s11095-013-1105-5. Epub 2013 Jun 14.

DOI:10.1007/s11095-013-1105-5
PMID:23765401
Abstract

PURPOSE

Development of dentotropic (tooth-binding) micelle formulations to improved efficacy and safety of antimicrobial therapy for dental plaque prevention and treatment.

METHODS

Because of their excellent biocompatibility and biodegradability, diphosphoserine peptide and pyrophosphate were selected as the tooth-binding moieties to replace alendronate, which was used previously. Diphosphoserine peptide was conjugated to Pluronic P123 using "click" chemistry, whereas pyrophosphate was attached to P123 through an ester bond. The tooth-binding micelles (TBMs) were prepared by self-assembly of the modified P123 with the antimicrobial agent triclosan. The influence of human saliva and/or its components on TBMs' drug-releasing profile, tooth-binding potential and binding stability was evaluated in vitro. S. mutans UA159 biofilm formed on hydroxyapatite (HA) discs was used to evaluate the TBMs' therapeutic potential.

RESULTS

Saliva does not affect triclosan release from TBMs. More than 60% of TBMs' HA binding capacity was maintained in the presence of saliva. Less than 5% of TBMs bound to HA was released over 24 h in human saliva, protease or phosphatase, suggesting the retention properties of the TBMs will not be compromised due to the biodegradable nature of the binding moieties. In both in vitro biofilm prevention and treatment studies, the TBM treated group showed significantly lower CFU per HA disc compared to the controls (2-log reduction, p < 0.05).

CONCLUSION

The data from these studies suggest that the novel dentotropic micelle formulations bearing biodegradable tooth-binding moieties can be used as an effective and safe delivery tool for antimicrobials to improve dental plaque prevention and treatment.

摘要

目的

开发具有向齿性(结合牙齿)的胶束制剂,以提高抗微生物疗法预防和治疗牙菌斑的功效和安全性。

方法

由于其出色的生物相容性和生物降解性,二磷酸丝氨酸肽和焦磷酸盐被选择作为结合牙齿的部分来替代先前使用的阿仑膦酸钠。使用“点击”化学将二磷酸丝氨酸肽连接到 Pluronic P123 上,而焦磷酸盐则通过酯键连接到 P123 上。通过将改性的 P123 与抗菌剂三氯生自组装制备具有向齿性的胶束(TBMs)。体外评估了人唾液及其成分对 TBMs 药物释放特性、向齿性结合潜力和结合稳定性的影响。将变形链球菌 UA159 生物膜形成在羟基磷灰石(HA)盘上,用于评估 TBMs 的治疗潜力。

结果

唾液不影响 TBMs 中三氯生的释放。在唾液存在的情况下,TBMs 对 HA 的结合能力保持在 60%以上。在人唾液、蛋白酶或磷酸酶中,少于 5%的 TBMs 结合到 HA 在 24 小时内释放,这表明结合部分的可生物降解性质不会影响 TBMs 的保留特性。在体外生物膜预防和治疗研究中,与对照组相比,TBM 处理组 HA 盘上的 CFU 明显减少(减少 2 个对数,p<0.05)。

结论

这些研究的数据表明,具有可生物降解向齿性结合部分的新型向齿性胶束制剂可用作抗菌药物的有效和安全递送工具,以改善牙菌斑的预防和治疗。

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